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I have a class:

class A
{
private:
ComplexClass member1;

public:
getMember1(){return member1;};
};

and I have an implementation that, for code simplification (more easily understandable), needs to retrieve that member1 to work with it. The first thing that would come to my mind would be:

ComplexClass *myComplexClass = &getMember1();

myComplexClass.getSomething();
myComplexClass.getSomethingElse();
etc.

which is obviously not correct since I'm retrieving a pointer from a new object and not from member1 (and gets a compiler warning).

My question is: what is the best design to do things like this? How do I keep encapsulation and yet facilitate the access of a members using a pointer to it? (I only want to read from member1, not to write on it).

Should I make a

ComplexClass *getPointerToMember1()

inside the class A?

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What's wrong with ComplexClass myComplexClass = a.getMember1(); myComplexClass.getSomething();? –  Oliver Charlesworth Sep 12 '11 at 15:51
    
You probably should not be adding a getter to start with. Why does the external entity need accesses to member 1. Is this the only entity? If so make it a friend. –  Loki Astari Sep 12 '11 at 18:27

2 Answers 2

up vote 3 down vote accepted

A const reference will keep them from editing. In my opinion, it makes your intention clearer than a const pointer.

class A
{
private:
ComplexClass member1;

public:
const ComplexClass &getMember1(){return member1;};
};
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1  
Bear in mind that this potentially makes encapsulation trickier, as it means that you need a ComplexClass object to refer to. (Imagine a future implementation of A that doesn't maintain a member variable, but dynamically creates a ComplexClass object on demand.) –  Oliver Charlesworth Sep 12 '11 at 15:49
    
Ok. but I believe that: ComplexClass myComplexClass = A.getMember1(); myComplexClass.someInteger = 10; is a valid implementation. –  J. C. Leitão Sep 12 '11 at 15:51
    
@Oli Given the example, we already have an object created. The way it was phrased, I assume the code is already coupled a little too highly anyway. I could see this being useful for an odd unit test though. –  Tom Kerr Sep 12 '11 at 15:59
    
@J. C. Leitão You are making a copy with that, it would be valid. It would not edit the version stored in A, which meets your requirements. –  Tom Kerr Sep 12 '11 at 16:03

You're returning the member by value which makes a copy of the ComplexClass member. Thus you aren't working on the actual member when you call the subsequent methods (and what the compiler is telling you).

I think the more idiomatic C++ approach that helps maintain encapsulation and reduces coupling is to create an algorithmic member:

A::doStuff()
{
    member1.getSomething();
    member1.getSomethignElse();
}

This way anyone that uses class A doesn't care that the implementation uses a ComplexClass but instead just knows that they can tell A to do some work and it will get done in the best possible way.

EDIT for comment: In that case, I would suggest creating methods in A that get the values from ComplexClass (again to hide your implementation). If that's not suitable, then you could return the implementation by const reference: const ComplexClass& getMember1() const { return member1; }

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Yeah, that would be the good way, but it is not a valid option to this case. As I wrote, I want to access data from member1, not to implement work on it. –  J. C. Leitão Sep 12 '11 at 16:06

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